Cavalcanti-Mata, M.E.; Duarte, M.E.; Tolentino, M.; Mendes, F.A.; Batista, L.; de Lima, J.M.; Lúcio, A.; Nascimento, A.P.; Almeida, R.D.; Lisboa, H.M.
Drying Kinetics of Industrial Pineapple Waste: Effective Diffusivity and Thermodynamic Properties Resulting from New Mathematical Models Derived from the Fick Equation. Processes 2024, 12, 1198.
https://doi.org/10.3390/pr12061198
AMA Style
Cavalcanti-Mata ME, Duarte ME, Tolentino M, Mendes FA, Batista L, de Lima JM, Lúcio A, Nascimento AP, Almeida RD, Lisboa HM.
Drying Kinetics of Industrial Pineapple Waste: Effective Diffusivity and Thermodynamic Properties Resulting from New Mathematical Models Derived from the Fick Equation. Processes. 2024; 12(6):1198.
https://doi.org/10.3390/pr12061198
Chicago/Turabian Style
Cavalcanti-Mata, Mário Eduardo, Maria Elita Duarte, Manoel Tolentino, Francisco Assis Mendes, Leonardo Batista, JanaÃna Maria de Lima, Alexandre Lúcio, Amanda Priscila Nascimento, Rafaela D. Almeida, and Hugo M. Lisboa.
2024. "Drying Kinetics of Industrial Pineapple Waste: Effective Diffusivity and Thermodynamic Properties Resulting from New Mathematical Models Derived from the Fick Equation" Processes 12, no. 6: 1198.
https://doi.org/10.3390/pr12061198
APA Style
Cavalcanti-Mata, M. E., Duarte, M. E., Tolentino, M., Mendes, F. A., Batista, L., de Lima, J. M., Lúcio, A., Nascimento, A. P., Almeida, R. D., & Lisboa, H. M.
(2024). Drying Kinetics of Industrial Pineapple Waste: Effective Diffusivity and Thermodynamic Properties Resulting from New Mathematical Models Derived from the Fick Equation. Processes, 12(6), 1198.
https://doi.org/10.3390/pr12061198
